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|
#!/bin/bash
#placeholder for deployment script.
set -ex
source common/tools.sh
usage() {
# no xtrace output
{ set +x; } 2> /dev/null
echo "OPNFV JOID deployer of the MAAS (Metal as a Service) infrastructure."
echo "Usage: $0 custom <path_to_labconfig>"
echo " $0 virtual"
exit ${1-0}
}
# Print usage help message if requested
if [ "$1" == "help" ] || [ "$1" == "-h" ] || [ "$1" == "--help" ]
then
usage;
fi
opnfvdistro=`cat /etc/lsb-release | grep CODENAME | cut -d "=" -f 2`
virtinstall=0
labname=$1
if [ ! -e $HOME/.ssh/id_rsa ]; then
ssh-keygen -N '' -f $HOME/.ssh/id_rsa
fi
NODE_ARCTYPE=`arch`
CPU_MODEL="host"
if [ "ppc64le" == "$NODE_ARCTYPE" ]; then
NODE_ARCHES="ppc64el"
elif [ "aarch64" == "$NODE_ARCTYPE" ]; then
NODE_ARCHES="arm64"
CPU_MODEL="host-passthrough"
else
NODE_ARCHES="amd64"
fi
NODE_ARC="$NODE_ARCHES/generic"
# Install the packages needed
echo_info "Installing and upgrading required packages"
#sudo apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 5EDB1B62EC4926EA
sudo apt-get update -y || true
sudo apt-get install software-properties-common -y
sudo apt-add-repository ppa:juju/stable -y
sudo apt-add-repository ppa:maas/stable -y
if [ "bionic" == "$opnfvdistro" ]; then
echo "no cloud archive needed"
else
sudo apt-add-repository cloud-archive:pike -y
fi
if [ "aarch64" == "$NODE_ARCTYPE" ]; then
if [ "bionic" == "$opnfvdistro" ]; then
echo "no repository needed"
else
sudo add-apt-repository ppa:ubuntu-cloud-archive/pike-staging -y
fi
fi
sudo apt-get update -y || true
#sudo apt-get dist-upgrade -y
if [ "bionic" == "$opnfvdistro" ]; then
sudo apt-get install bridge-utils openssh-server bzr git virtinst qemu-kvm libvirt-bin \
maas maas-region-controller juju python-pip python-psutil python-openstackclient \
python-congressclient gsutil pastebinit python-jinja2 sshpass \
openssh-server vlan ipmitool jq expect snap -y --allow-unauthenticated
sudo snap install charm
else
sudo apt-get install bridge-utils openssh-server bzr git virtinst qemu-kvm libvirt-bin \
maas maas-region-controller juju python-pip python-psutil python-openstackclient \
python-congressclient gsutil charm-tools pastebinit python-jinja2 sshpass \
openssh-server vlan ipmitool jq expect snap -y --allow-unauthenticated
fi
if [ "aarch64" == "$NODE_ARCTYPE" ]; then
sudo apt-get install qemu qemu-efi qemu-system-aarch64 -y --allow-unauthenticated
fi
sudo -H pip install --upgrade pip
#
# Config preparation
#
# Get labconfig and generate deployconfig.yaml
case "$labname" in
'custom')
# Deployment with a custom labconfig file
labfile=$2
if [ -z "$labfile" ]; then
if [ ! -e ./labconfig.yaml ]; then
# no labconfig file was specified and no ci/labconfig.yaml is present
echo_error "Labconfig file must be specified when using custom"
usage 1
else
# no labconfig file was specified and but a (backup) ci/labconfig.yaml found
echo_warning "Labconfig was not specified, using ./labconfig.yaml instead"
# no action needed, ./labconfig.yaml already present
fi
elif [ ! -e "$labfile" ]; then
# labconfig file was specified but does not exist on disk
echo_warning "Labconfig not found locally, trying download"
wget $labfile -t 3 -T 10 -O ./labconfig.yaml || true
count=`wc -l labconfig.yaml | cut -d " " -f 1`
if [ $count -lt 10 ]; then
echo_error "Unable to download labconfig"
exit 1
fi
else
echo_info "Using $labfile to setup deployment"
cp $labfile ./labconfig.yaml
fi
python genDeploymentConfig.py -l labconfig.yaml > deployconfig.yaml
labname=`grep "maas_name" deployconfig.yaml | cut -d ':' -f 2 | sed -e 's/ //'`
;;
'virtual'|'')
# Virtual deployment using a default labconfig file
echo_info "Using default labconfig for virtual install"
cp ../labconfig/default/labconfig.yaml ./
python genDeploymentConfig.py -l labconfig.yaml > deployconfig.yaml
labname="default"
virtinstall=1
;;
* )
# Unknown argument
echo_error "Unknown script argument: $labname"
usage 1
;;
esac
python -c 'import sys, yaml, json; json.dump(yaml.load(sys.stdin), sys.stdout, indent=4)' < labconfig.yaml > labconfig.json
python -c 'import sys, yaml, json; json.dump(yaml.load(sys.stdin), sys.stdout, indent=4)' < deployconfig.yaml > deployconfig.json
MAAS_IP=$(grep " ip_address" deployconfig.yaml | cut -d ':' -f 2 | sed -e 's/ //')
MAAS_NAME=`grep "maas_name" deployconfig.yaml | cut -d ':' -f 2 | sed -e 's/ //'`
API_SERVER="http://$MAAS_IP:5240/MAAS/api/2.0"
API_SERVERMAAS="http://$MAAS_IP:5240/MAAS/"
PROFILE=ubuntu
MY_UPSTREAM_DNS=`grep "upstream_dns" deployconfig.yaml | cut -d ':' -f 2 | sed -e 's/ //'`
SSH_KEY=`cat ~/.ssh/id_rsa.pub`
MAIN_ARCHIVE=`grep "main_archive" deployconfig.yaml | cut -d ':' -f 2-3 | sed -e 's/ //'`
URL=https://images.maas.io/ephemeral-v3/daily/
KEYRING_FILE=/usr/share/keyrings/ubuntu-cloudimage-keyring.gpg
SOURCE_ID=1
FABRIC_ID=1
PRIMARY_RACK_CONTROLLER="$MAAS_IP"
VLAN_UNTTAGED="untagged"
# In the case of a virtual deployment get deployconfig.yaml
if [ "$virtinstall" -eq 1 ]; then
./cleanvm.sh || true
fi
#create backup directory
mkdir ~/joid_config/ || true
# Backup deployconfig.yaml in joid_config folder
if [ -e ./deployconfig.yaml ]; then
cp ./deployconfig.yaml ~/joid_config/
cp ./labconfig.yaml ~/joid_config/
fi
#
# Prepare local environment to avoid password asking
#
# make sure no password asked during the deployment.
sudoer_file=/etc/sudoers.d/90-joid-init
sudoer_entry="$USER ALL=(ALL) NOPASSWD:ALL"
if [ -e $sudoer_file ]; then
if ! sudo grep -q "$sudoer_entry" $sudoer_file; then
sudo sed -i -e "1i$sudoer_entry" $sudoer_file
fi
else
echo "$sudoer_entry" > 90-joid-init
sudo chown root:root 90-joid-init
sudo mv 90-joid-init /etc/sudoers.d/
fi
echo_info "Deployment of MAAS started"
#
# Virsh preparation
#
# define the pool and try to start even though its already exist.
# For fresh install this may or may not there.
#some system i am seeing libvirt and some have libvirtd looks like libvirt-bin is
#keep switching so lets try both.
sudo adduser $USER libvirtd || true
sudo adduser $USER libvirt || true
sudo virsh pool-define-as default --type dir --target /var/lib/libvirt/images/ || true
sudo virsh pool-start default || true
sudo virsh pool-autostart default || true
# In case of virtual install set network
if [ "$virtinstall" -eq 1 ]; then
sudo virsh net-dumpxml default > default-net-org.xml
sed -i '/dhcp/d' default-net-org.xml
sed -i '/range/d' default-net-org.xml
sudo virsh net-destroy default
sudo virsh net-define default-net-org.xml
sudo virsh net-start default
rm -f default-net-org.xml
fi
#
# Cleanup, juju init and config backup
#
# To avoid problem between apiclient/maas_client and apiclient from google
# we remove the package google-api-python-client from yardstick installer
if [ $(pip list --format=columns | grep google-api-python-client | wc -l) == 1 ]; then
sudo pip uninstall google-api-python-client
fi
if [ ! -e ~maas/.ssh/id_rsa.pub ]; then
if [ ! -e $HOME/id_rsa_maas.pub ]; then
[ -e $HOME/id_rsa_maas ] && rm -f $HOME/id_rsa_maas
sudo su - $USER -c "echo |ssh-keygen -t rsa -f $HOME/id_rsa_maas"
fi
sudo -u maas mkdir ~maas/.ssh/ || true
sudo cp $HOME/id_rsa_maas ~maas/.ssh/id_rsa
sudo cp $HOME/id_rsa_maas.pub ~maas/.ssh/id_rsa.pub
sudo chown maas:maas ~maas/.ssh/id_rsa
sudo chown maas:maas ~maas/.ssh/id_rsa.pub
fi
# Ensure virsh can connect without ssh auth
sudo cat ~maas/.ssh/id_rsa.pub >> $HOME/.ssh/authorized_keys
sudo cat $HOME/.ssh/id_rsa.pub >> $HOME/.ssh/authorized_keys
#
# MAAS config
# https://insights.ubuntu.com/2016/01/23/maas-setup-deploying-openstack-on-maas-1-9-with-juju/
# http://blog.naydenov.net/2016/01/nodes-networking-deploying-openstack-on-maas-1-9-with-juju/
#
configuremaas(){
#reconfigure maas with correct MAAS address.
sudo maas-rack config --region-url http://$MAAS_IP:5240/MAAS
sudo maas createadmin --username=ubuntu --email=ubuntu@ubuntu.com --password=ubuntu || true
API_KEY=`sudo maas-region apikey --username=ubuntu`
maas login $PROFILE $API_SERVERMAAS $API_KEY
maas $PROFILE maas set-config name='main_archive' value=$MAIN_ARCHIVE || true
maas $PROFILE maas set-config name=upstream_dns value=$MY_UPSTREAM_DNS || true
maas $PROFILE maas set-config name='maas_name' value=$MAAS_NAME || true
maas $PROFILE maas set-config name='ntp_server' value='ntp.ubuntu.com' || true
maas $PROFILE sshkeys create "key=$SSH_KEY" || true
for tag in bootstrap compute control storage
do
maas $PROFILE tags create name=$tag || true
done
#below tag would be used to enable huge pages for DPDK and SRIOV enablement in Ubuntu kernel via MAAS
maas $PROFILE tags create name='opnfv-dpdk' comment='OPNFV DPDK enablement' \
kernel_opts='hugepagesz=2M hugepages=1024 hugepagesz=1G hugepages=20 default_hugepagesz=1G intel_iommu=on' || true
#create the required spaces.
maas $PROFILE space update 0 name=default || true
for space in admin-api internal-api public-api \
storage-access storage-cluster admin \
tenant-data tenant-api tenant-public os-api
do
echo_info "Creating the space $space"
maas $PROFILE spaces create name=$space || true
done
maas $PROFILE boot-source update $SOURCE_ID \
url=$URL keyring_filename=$KEYRING_FILE || true
if [ $NODE_ARCTYPE != "x86_64" ] ; then
maas $PROFILE boot-source-selection update 1 1 arches="$NODE_ARCHES"
fi
maas $PROFILE boot-resources import || true
while [ "$(maas $PROFILE boot-resources is-importing)" == "true" ];
do
sleep 60
done
}
setupspacenetwork(){
#get space, subnet and vlan and create accordingly.
#for type in admin osapi data storage external floating public; do
nettypes=`cat labconfig.json | jq '.opnfv.spaces[]'.type | cut -d \" -f 2`
for type in $nettypes; do
config_done=0
SPACE_CIDR=`cat labconfig.json | jq '.opnfv.spaces[] | select(.type=="'$type'")'.cidr | cut -d \" -f 2 `
SPACE_VLAN=`cat labconfig.json | jq '.opnfv.spaces[] | select(.type=="'$type'")'.vlan | cut -d \" -f 2 `
SPACE_GWAY=`cat labconfig.json | jq '.opnfv.spaces[] | select(.type=="'$type'")'.gateway | cut -d \" -f 2 `
NET_FABRIC_NAME=$(maas $PROFILE subnets read | jq -r ".[] | select(.cidr==\"$SPACE_CIDR\")".vlan.fabric)
if ([ $NET_FABRIC_NAME ] && [ $NET_FABRIC_NAME != "null" ]); then
NET_FABRIC_VID=$(maas $PROFILE subnets read | jq -r ".[] | select(.cidr==\"$SPACE_CIDR\")".vlan.vid)
NET_FABRIC_ID=$(maas $PROFILE fabric read $NET_FABRIC_NAME | jq -r ".id")
if ([ $SPACE_VLAN == "null" ]); then
SPACE_VLAN=0
fi
NET_VLAN_ID=$(maas $PROFILE vlans read $NET_FABRIC_ID | jq -r ".[] | select(.vid==\"$SPACE_VLAN\")".id)
NET_VLAN_VID=$(maas $PROFILE vlans read $NET_FABRIC_ID | jq -r ".[] | select(.vid==\"$SPACE_VLAN\")".vid)
if ([ $SPACE_GWAY ] && [ "$SPACE_GWAY" != "null" ]); then
maas $PROFILE subnet update $SPACE_CIDR gateway_ip=$SPACE_GWAY || true
fi
if ([ $NET_VLAN_VID ] && [ $NET_VLAN_VID == "0" ]); then
config_done=1
elif ([ $NET_VLAN_VID ] && [ $NET_VLAN_VID == $SPACE_VLAN ]); then
config_done=1
else
NET_VLAN_ID=$(maas $PROFILE vlans create $NET_FABRIC_ID vid=$SPACE_VLAN | jq --raw-output ".id")
if ([ $NET_VLAN_ID ] && [ $NET_VLAN_ID != "null" ]); then
maas $PROFILE subnet update $SPACE_CIDR vlan=$NET_VLAN_ID || true
NET_FABRIC_VID=$SPACE_VLAN
fi
fi
else
if ([ $SPACE_CIDR ] && [ "$SPACE_CIDR" != "null" ]); then
FABRIC_ID=$(maas $PROFILE fabrics create name=opnfv$type | jq --raw-output ".id")
NET_FABRIC_ID=$FABRIC_ID
NET_FABRIC_VID=$SPACE_VLAN
if ([ $SPACE_VLAN ] && [ "$SPACE_VLAN" != "null" ]); then
NET_VLAN_ID=$(maas $PROFILE vlans create $FABRIC_ID vid=$SPACE_VLAN | jq --raw-output ".id")
if ([ $SPACE_GWAY ] && [ "$SPACE_GWAY" != "null" ]); then
maas $PROFILE subnets create fabric=$FABRIC_ID cidr=$SPACE_CIDR vid=$VID_ID gateway_ip=$SPACE_GWAY || true
else
maas $PROFILE subnets create fabric=$FABRIC_ID cidr=$SPACE_CIDR vid=$VID_ID || true
fi
NET_FABRIC_VID=$VLAN_ID
else
if ([ $SPACE_GWAY ] && [ "$SPACE_GWAY" != "null" ]); then
maas $PROFILE subnets create fabric=$FABRIC_ID cidr=$SPACE_CIDR vid="0" gateway_ip=$SPACE_GWAY || true
else
maas $PROFILE subnets create fabric=$FABRIC_ID cidr=$SPACE_CIDR vid="0" || true
fi
fi
NET_FABRIC_NAME=$(maas $PROFILE subnets read | jq -r ".[] | select(.cidr==\"$SPACE_CIDR\")".vlan.fabric)
fi
fi
case "$type" in
'admin') JUJU_SPACE="internal-api"; DHCP='enabled' ;;
'data') JUJU_SPACE="tenant-data"; DHCP='' ;;
'public') JUJU_SPACE="public-api"; DHCP='' ;;
'storage') JUJU_SPACE="storage-cluster"; DHCP='' ;;
'storageaccess') JUJU_SPACE="storage-data"; DHCP='' ;;
'floating') JUJU_SPACE="tenant-public"; DHCP='' ;;
'osapi') JUJU_SPACE="os-api"; DHCP='' ;;
*) JUJU_SPACE='default'; DHCP='OFF'; echo_info " >>> Unknown SPACE" ;;
esac
JUJU_SPACE_ID=$(maas $PROFILE spaces read | jq -r ".[] | select(.name==\"$JUJU_SPACE\")".id)
JUJU_VLAN_VID=$(maas $PROFILE subnets read | jq -r ".[] | select(.name==\"$SPACE_CIDR\")".vlan.vid)
NET_FABRIC_ID=$(maas $PROFILE fabric read $NET_FABRIC_NAME | jq -r ".id")
if ([ $NET_FABRIC_ID ] && [ $NET_FABRIC_ID != "null" ]); then
if ([ $JUJU_VLAN_VID ] && [ $JUJU_VLAN_VID != "null" ]); then
maas $PROFILE vlan update $NET_FABRIC_ID $JUJU_VLAN_VID space=$JUJU_SPACE_ID || true
fi
fi
if ([ $type == "admin" ]); then
# If we have a network, we create it
if ([ $NET_FABRIC_ID ]); then
# Set ranges
SUBNET_PREFIX=${SPACE_CIDR::-5}
IP_RES_RANGE_LOW="$SUBNET_PREFIX.1"
IP_RES_RANGE_HIGH="$SUBNET_PREFIX.39"
IP_DYNAMIC_RANGE_LOW="$SUBNET_PREFIX.40"
IP_DYNAMIC_RANGE_HIGH="$SUBNET_PREFIX.150"
maas $PROFILE ipranges create type=reserved \
start_ip=$IP_RES_RANGE_LOW end_ip=$IP_RES_RANGE_HIGH \
comment='This is a reserved range' || true
maas $PROFILE ipranges create type=dynamic \
start_ip=$IP_DYNAMIC_RANGE_LOW end_ip=$IP_DYNAMIC_RANGE_HIGH \
comment='This is a reserved dynamic range' || true
# Set DHCP
PRIMARY_RACK_CONTROLLER=$(maas $PROFILE rack-controllers read | jq -r '.[0].system_id')
maas $PROFILE vlan update $NET_FABRIC_ID $NET_FABRIC_VID dhcp_on=True primary_rack=$PRIMARY_RACK_CONTROLLER || true
fi
elif ([ $type == "public" ] || [ $type == "osapi" ]); then
# If we have a network, we create reserve IPS for public IP range
if ([ $NET_FABRIC_ID ]); then
# Set ranges
SUBNET_PREFIX=${SPACE_CIDR::-5}
IP_RES_RANGE_LOW="$SUBNET_PREFIX.1"
IP_RES_RANGE_HIGH="$SUBNET_PREFIX.39"
maas $PROFILE ipranges create type=reserved \
start_ip=$IP_RES_RANGE_LOW end_ip=$IP_RES_RANGE_HIGH \
comment='This is a reserved range' || true
fi
else
if ([ $NET_FABRIC_ID ]); then
# Set ranges
SUBNET_PREFIX=${SPACE_CIDR::-5}
IP_RES_RANGE_LOW="$SUBNET_PREFIX.1"
IP_RES_RANGE_HIGH="$SUBNET_PREFIX.5"
maas $PROFILE ipranges create type=reserved \
start_ip=$IP_RES_RANGE_LOW end_ip=$IP_RES_RANGE_HIGH \
comment='This is a reserved range' || true
fi
fi
done
}
addnodes(){
API_KEY=`sudo maas-region apikey --username=ubuntu`
maas login $PROFILE $API_SERVERMAAS $API_KEY
maas $PROFILE maas set-config name=default_min_hwe_kernel value=hwe-16.04-edge || true
# make sure there is no machine entry in maas
for m in $(maas $PROFILE machines read | jq -r '.[].system_id')
do
maas $PROFILE machine delete $m
done
podno=$(maas $PROFILE pods read | jq -r ".[]".id)
maas $PROFILE pod delete $podno || true
# if we have a virshurl configuration we use it, else we use local
VIRSHURL=$(cat labconfig.json | jq -r '.opnfv.virshurl')
if ([ $VIRSHURL == "" ] || [ "$VIRSHURL" == "null" ]); then
VIRSHIP=$MAAS_IP
VIRSHURL="qemu+ssh://$USER@$VIRSHIP/system "
VIRSHHOST=""
else
VIRSHHOST=$(echo $VIRSHURL| cut -d\/ -f 3 | cut -d@ -f2)
VIRSHIP="" # TODO: parse from $VIRSHURL if needed
fi
if [ "$virtinstall" -eq 1 ]; then
netw=" --network bridge=virbr0,model=virtio"
elif ([ "$VIRSHHOST" != "" ]); then
# Get the bridge hosting the remote virsh
brid=$(ssh $VIRSHHOST "ip a l | grep $VIRSHHOST | perl -pe 's/.* (.*)\$/\$1/g'")
netw=" --network bridge=$brid,model=virtio"
# prepare a file containing virsh remote url to connect without adding it n command line
echo "export VIRSH_DEFAULT_CONNECT_URI=$VIRSHURL" > virsh_uri.sh
else
netw=""
brid=`brctl show | grep 8000 | cut -d "8" -f 1 | tr "\n" " " | tr " " " " | tr -s " "`
ADMIN_BR=`cat labconfig.json | jq '.opnfv.spaces[] | select(.type=="admin")'.bridge | cut -d \" -f 2 `
for feature in $brid; do
if ([ "$feature" == "$ADMIN_BR" ]); then
netw=$netw" --network bridge="$feature",model=virtio"
else
netw=$netw
fi
done
fi
# Add server fingerprint to known hosts to prevent security prompt in the
# SSH connection during the virt-install
if [ $VIRSHIP != "" ]; then
# Check if the IP is not already present among the known hosts
if ! ssh-keygen -F $VIRSHIP > /dev/null ; then
echo_info "SSH fingerprint of the host is not known yet, adding to known_hosts"
ssh-keyscan -H $VIRSHIP >> ~/.ssh/known_hosts
fi
fi
echo_info "Creating and adding bootstrap node"
virt-install --connect $VIRSHURL --name bootstrap --ram 4098 --cpu $CPU_MODEL --vcpus 2 \
--disk size=20,format=qcow2,bus=virtio,cache=directsync,io=native,pool=default \
$netw --boot network,hd,menu=off --video virtio --noautoconsole --autostart \
--accelerate --print-xml | tee bootstrap
if [ "$virtinstall" -eq 1 ]; then
bootstrapmac=`grep "mac address" bootstrap | head -1 | cut -d '"' -f 2`
else
bootstrapmac=""
bootstrapmacs=`grep "mac address" bootstrap| cut -d '"' -f 2`
for mac in $bootstrapmacs; do
bootstrapmac=$bootstrapmac" mac_addresses="$mac
done
fi
virsh -c $VIRSHURL define --file bootstrap
rm -f bootstrap
sleep 60
maas $PROFILE machines create autodetect_nodegroup='yes' name='bootstrap' \
tags='bootstrap' hostname='bootstrap' power_type='virsh' mac_addresses=$bootstrapmac \
power_parameters_power_address="$VIRSHURL" \
architecture=$NODE_ARC power_parameters_power_id='bootstrap'
bootstrapid=$(maas $PROFILE machines read | jq -r '.[] | select(.hostname == "bootstrap").system_id')
maas $PROFILE tag update-nodes bootstrap add=$bootstrapid
if [ "$virtinstall" -eq 1 ]; then
units=`cat deployconfig.json | jq .opnfv.units`
until [ $(($units)) -lt 1 ]; do
units=$(($units - 1));
NODE_NAME=`cat labconfig.json | jq ".lab.racks[].nodes[$units].name" | cut -d \" -f 2 `
virt-install --connect $VIRSHURL --name $NODE_NAME --ram 8192 --cpu $CPU_MODEL --vcpus 4 \
--disk size=120,format=qcow2,bus=virtio,cache=directsync,io=native,pool=default \
$netw $netw --boot network,hd,menu=off --video virtio --noautoconsole --autostart \
--accelerate --print-xml | tee $NODE_NAME
nodemac=`grep "mac address" $NODE_NAME | head -1 | cut -d '"' -f 2`
virsh -c $VIRSHURL define --file $NODE_NAME
rm -f $NODE_NAME
maas $PROFILE machines create autodetect_nodegroup='yes' name=$NODE_NAME \
tags='control compute' hostname=$NODE_NAME power_type='virsh' mac_addresses=$nodemac \
power_parameters_power_address="$VIRSHURL" \
architecture=$NODE_ARC power_parameters_power_id=$NODE_NAME
nodeid=$(maas $PROFILE machines read | jq -r '.[] | select(.hostname == '\"$NODE_NAME\"').system_id')
maas $PROFILE tag update-nodes control add=$nodeid || true
maas $PROFILE tag update-nodes compute add=$nodeid || true
done
else
units=`cat deployconfig.json | jq .opnfv.units`
until [ $(($units)) -lt 1 ]; do
units=$(($units - 1));
NODE_NAME=`cat labconfig.json | jq ".lab.racks[].nodes[$units].name" | cut -d \" -f 2 `
MAC_ADDRESS=`cat labconfig.json | jq ".lab.racks[].nodes[$units].nics[] | select(.spaces[]==\"admin\").mac"[0] | cut -d \" -f 2 `
POWER_TYPE=`cat labconfig.json | jq ".lab.racks[].nodes[$units].power.type" | cut -d \" -f 2 `
POWER_IP=`cat labconfig.json | jq ".lab.racks[].nodes[$units].power.address" | cut -d \" -f 2 `
POWER_USER=`cat labconfig.json | jq ".lab.racks[].nodes[$units].power.user" | cut -d \" -f 2 `
POWER_PASS=`cat labconfig.json | jq ".lab.racks[].nodes[$units].power.pass" | cut -d \" -f 2 `
NODE_ARCTYPE=`cat labconfig.json | jq ".lab.racks[].nodes[$units].architecture" | cut -d \" -f 2 `
if [ "ppc64le" == "$NODE_ARCTYPE" ]; then
NODE_ARCHES="ppc64el"
elif [ "aarch64" == "$NODE_ARCTYPE" ]; then
NODE_ARCHES="arm64"
else
NODE_ARCHES="amd64"
fi
NODE_ARC="$NODE_ARCHES/generic"
echo_info "Creating node $NODE_NAME"
maas $PROFILE machines create autodetect_nodegroup='yes' name=$NODE_NAME \
hostname=$NODE_NAME power_type=$POWER_TYPE power_parameters_power_address=$POWER_IP \
power_parameters_power_user=$POWER_USER power_parameters_power_pass=$POWER_PASS \
mac_addresses=$MAC_ADDRESS architecture=$NODE_ARC
done
fi
maas $PROFILE pods create type=virsh power_address="$VIRSHURL" power_user=$USER
# Make sure nodes are added into MAAS and none of them is in commissioning state
i=0
while [ "$(maas $PROFILE nodes read | grep Commissioning )" ];
do
echo_info "Waiting for nodes to finish commissioning. ${i} minutes elapsed."
sleep 60
i=$[$i+1]
# Make sure that no nodes have failed commissioning or testing
if [ "$(maas $PROFILE nodes read | grep 'Failed' )" ];
then
echo "Error: Some nodes have failed commissioning or testing" 1>&2
exit 1
fi
done
}
# configure MAAS with the different options.
configuremaas
sleep 30
# functioncall with subnetid to add and second parameter is dhcp enable
# third parameter will define the space. It is required to have admin
setupspacenetwork
sudo sed -i 's/localhost/'$MAAS_IP'/g' /etc/maas/rackd.conf
sudo service maas-rackd restart
sudo service maas-regiond restart
sleep 120
# Let's add the nodes now. Currently works only for virtual deployment.
addnodes
echo_info "Initial deployment of MAAS finished"
#Added the Qtip public to run the Qtip test after install on bare metal nodes.
#maas $PROFILE sshkeys new key="`cat ./maas/sshkeys/QtipKey.pub`"
#maas $PROFILE sshkeys new key="`cat ./maas/sshkeys/DominoKey.pub`"
addcredential() {
API_KEY=`sudo maas-region apikey --username=ubuntu`
controllername=`awk 'NR==1{print substr($1, 1, length($1)-1)}' deployconfig.yaml`
cloudname=`awk 'NR==1{print substr($1, 1, length($1)-1)}' deployconfig.yaml`
echo "credentials:" > credential.yaml
echo " $controllername:" >> credential.yaml
echo " opnfv-credentials:" >> credential.yaml
echo " auth-type: oauth1" >> credential.yaml
echo " maas-oauth: $API_KEY" >> credential.yaml
juju add-credential $controllername -f credential.yaml --replace
}
addcloud() {
controllername=`awk 'NR==1{print substr($1, 1, length($1)-1)}' deployconfig.yaml`
cloudname=`awk 'NR==1{print substr($1, 1, length($1)-1)}' deployconfig.yaml`
echo "clouds:" > maas-cloud.yaml
echo " $cloudname:" >> maas-cloud.yaml
echo " type: maas" >> maas-cloud.yaml
echo " auth-types: [oauth1]" >> maas-cloud.yaml
echo " endpoint: $API_SERVERMAAS" >> maas-cloud.yaml
echo_info "Adding cloud $cloudname"
juju add-cloud $cloudname maas-cloud.yaml --replace
}
#
# Enable MAAS nodes interfaces
#
API_KEY=`sudo maas-region apikey --username=ubuntu`
maas login $PROFILE $API_SERVERMAAS $API_KEY
if [ -e ./labconfig.json ]; then
# We will configure all node, so we need the qty, and loop on it
NODE_QTY=$(cat labconfig.json | jq --raw-output '.lab.racks[0].nodes[]'.name | wc -l)
NODE_QTY=$((NODE_QTY-1))
for NODE_ID in $(seq 0 $NODE_QTY); do
# Get the NAME/SYS_ID of this node
NODE_NAME=$(cat labconfig.json | jq --raw-output ".lab.racks[0].nodes[$NODE_ID].name")
NODE_SYS_ID=$(maas $PROFILE nodes read | jq -r ".[] | select(.hostname==\"$NODE_NAME\")".system_id)
echo_info ">>> Configuring node $NODE_NAME [$NODE_ID][$NODE_SYS_ID]"
# Recover the network interfaces list and configure each one
# with sorting the list, we have hardware interface first, than the vlan interfaces
IF_LIST=$(cat labconfig.json | jq --raw-output ".lab.racks[0].nodes[$NODE_ID].nics[] ".ifname | sort -u )
for IF_NAME in $IF_LIST; do
# get the space of the interface
IF_SPACE=$(cat labconfig.json | jq --raw-output ".lab.racks[0].nodes[$NODE_ID].nics[] | select(.ifname==\"$IF_NAME\") ".spaces[])
SUBNET_CIDR=`cat labconfig.json | jq '.opnfv.spaces[] | select(.type=="'$IF_SPACE'")'.cidr | cut -d \" -f 2 `
case "$IF_SPACE" in
'data') IF_MODE='AUTO' ;;
'public') IF_MODE='AUTO' ;;
'storage') IF_MODE='AUTO' ;;
'osapi') IF_MODE='AUTO' ;;
'floating') IF_MODE='link_up' ;;
*) SUBNET_CIDR='null'; IF_MODE='null'; echo_info " >>> Unknown SPACE" ;;
esac
echo_info " >>> Configuring interface $IF_NAME [$IF_SPACE][$SUBNET_CIDR]"
# if we have a vlan parameter in the space config
IF_VLAN=$(cat labconfig.json | jq --raw-output ".opnfv.spaces[] | select(.type==\"$IF_SPACE\")".vlan)
if ([ -z $IF_VLAN ] && [ $IF_NAME =~ \. ]); then
# We have no vlan specified on spaces, but we have a vlan subinterface
IF_VLAN = ${IF_NAME##*.}; fi
# in case of interface renaming
IF_NEWNAME=$IF_NAME
# In case of a VLAN interface
if ([ $IF_VLAN ] && [ "$IF_VLAN" != "null" ]); then
echo_info " >>> Configuring VLAN $IF_VLAN"
VLANID=$(maas $PROFILE subnets read | jq ".[].vlan | select(.vid==$IF_VLAN)".id)
if ([ $VLANID ] && [ "$VLANID" != "null" ]); then
FABRICID=$(maas $PROFILE subnets read | jq ".[].vlan | select(.vid==$IF_VLAN)".fabric_id)
if ([ $FABRICID ] && [ "$FABRICID" != "null" ]); then
INTERFACE=$(maas $PROFILE interfaces read $NODE_SYS_ID | jq ".[] | select(.vlan.fabric_id==$FABRICID)".id)
fi
fi
if [[ -z $INTERFACE ]]; then
# parent interface is not set because it does not have a SUBNET_CIDR
PARENT_VLANID=$(maas $PROFILE fabrics read | jq ".[].vlans[] | select(.fabric_id==$FABRICID and .name==\"untagged\")".id)
# If we need to rename the interface, use new interface name
if ([ $IF_NEWNAME ] && [ "$IF_NEWNAME" != "null" ]); then
PARENT_IF_NAME=${IF_NEWNAME%%.*}
IF_NAME=$IF_NEWNAME
else
PARENT_IF_NAME=${IF_NAME%%.*}
fi
# We set the physical interface to the targeted fabric
maas $PROFILE interface update $NODE_SYS_ID $PARENT_IF_NAME vlan=$PARENT_VLANID
sleep 2
INTERFACE=$(maas $PROFILE interfaces read $NODE_SYS_ID | jq ".[] | select(.vlan.fabric_id==$FABRICID)".id)
fi
maas $PROFILE interfaces create-vlan $NODE_SYS_ID vlan=$VLANID parent=$INTERFACE || true
else
# rename interface if needed
IF_MACLOWER=$( cat labconfig.json | jq ".lab.racks[0].nodes[$NODE_ID].nics[] | select(.ifname==\"$IF_NEWNAME\")".mac[0])
IF_MAC=(${IF_MACLOWER,,})
IF_ID=$( maas $PROFILE interfaces read $NODE_SYS_ID | jq ".[] | select(.mac_address==$IF_MAC)".id)
if ([ $IF_ID ] && [ "$IF_ID" != "null" ]); then
maas $PROFILE interface update $NODE_SYS_ID $IF_ID name=$IF_NEWNAME
fi
fi
# Configure the interface
if ([ $SUBNET_CIDR ] && [ "$SUBNET_CIDR" != "null" ]); then
VLANID=$(maas $PROFILE subnet read $SUBNET_CIDR | jq -r '.vlan.id')
if !([ $IF_VLAN ] && [ "$IF_VLAN" != "null" ]); then
# If this interface is not a VLAN (done withe create-vlan)
maas $PROFILE interface update $NODE_SYS_ID $IF_NAME vlan=$VLANID || true
fi
maas $PROFILE interface link-subnet $NODE_SYS_ID $IF_NAME mode=$IF_MODE subnet=$SUBNET_CIDR || true
sleep 2
else
echo_info " >>> Not configuring, we have an empty Subnet CIDR"
fi
done
done
fi
# Add the cloud and controller credentials for MAAS for that lab.
addcloud
addcredential
#
# End of scripts
#
echo_info "MAAS deployment finished successfully"
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